Solver Name | Answer | Objective function | CPU time | Wall clock time |
---|---|---|---|---|
bsolo 3.0.16 | UNSAT | 0.043992 | 0.0462491 |
Name | normalized-PB06/OPT-BIGINT/mps-v2-20-10/MIPLIB/ miplib3/normalized-mps-v2-20-10-qnet1.opb |
MD5SUM | 9cd99d01f800e747c5049853d96a0d20 |
Bench Category | OPT-BIGINT (optimisation, big integers) |
Best result obtained on this benchmark | UNSAT |
Best value of the objective obtained on this benchmark | |
Best CPU time to get the best result obtained on this benchmark | 0.044992 |
Has Objective Function | YES |
Satisfiable | NO |
(Un)Satisfiability was proved | YES |
Best value of the objective function | |
Optimality of the best value was proved | |
Number of variables | 5380 |
Total number of constraints | 630 |
Number of constraints which are clauses | 40 |
Number of constraints which are cardinality constraints (but not clauses) | 48 |
Number of constraints which are nor clauses,nor cardinality constraints | 542 |
Minimum length of a constraint | 2 |
Maximum length of a constraint | 77 |
Number of terms in the objective function | 3720 |
Biggest coefficient in the objective function | 536870912 |
Number of bits for the biggest coefficient in the objective function | 30 |
Sum of the numbers in the objective function | 133143986052 |
Number of bits of the sum of numbers in the objective function | 37 |
Biggest number in a constraint | 8388608000000 |
Number of bits of the biggest number in a constraint | 43 |
Biggest sum of numbers in a constraint | 17124187591735 |
Number of bits of the biggest sum of numbers | 44 |
Number of products (including duplicates) | 0 |
Sum of products size (including duplicates) | 0 |
Number of different products | 0 |
Sum of products size | 0 |
0.00/0.00 c bsolo beta version 3.0.16 - 04/04/2007 : 1458 GMT 0.00/0.00 c Developed by Vasco Manquinho IST/UTL - INESC-ID 0.00/0.00 c type "bsolo -h" for help 0.00/0.00 c Time Limit set via environment variable PBTIMEOUT to 1800 0.00/0.00 c Time Limit set to 1800 0.00/0.00 c Memory Limit set to 1800 MB 0.00/0.00 c Instance file /tmp/evaluation/365722-1177051747/instance-365722-1177051747.opb 0.00/0.00 c File size is 158214 bytes. 0.00/0.01 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.02 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Coefficients are big enough for not using lower bounding. 0.00/0.03 c Highest Coefficient sum: 1.71242e+13 0.00/0.03 c Parsing was ok!! 0.00/0.03 c Total parsing time: 0.028 s 0.00/0.03 c Var: 5380 Constr: 962 145/368/449 Lit: 16185 Watch. Lit: 8199 0.00/0.03 c Obj. Vars: 3720 (69.145 % of total variables) 0.00/0.04 c CONFLICT DETECTED at PROBING!!! 0.00/0.04 c Rst Confl NCB Dec Ctrs Lits Learnt Conf/s Time 0.00/0.04 c 0 0 0 0 962 16185 0 0 0.04 0.00/0.04 s UNSATISFIABLE 0.00/0.04 c Total time: 0.039 s
ERROR: no interpretation found !
runsolver version 3.2.2 (c) roussel@cril.univ-artois.fr command line: runsolver --timestamp -w ROOT/results/node26/watcher-365722-1177051747 -o ROOT/results/node26/solver-365722-1177051747 -C 1800 -W 3600 -M 1800 --output-limit 1,15 bsolo3.0.16 -t1800 -m1800 /tmp/evaluation/365722-1177051747/instance-365722-1177051747.opb Enforcing CPUTime limit (soft limit, will send SIGTERM then SIGKILL): 1800 seconds Enforcing CPUTime limit (hard limit, will send SIGXCPU): 1830 seconds Enforcing wall clock limit (soft limit, will send SIGTERM then SIGKILL): 3600 seconds Enforcing VSIZE limit (soft limit, will send SIGTERM then SIGKILL): 1843200 KiB Enforcing VSIZE limit (hard limit, stack expansion will fail with SIGSEGV, brk() and mmap() will return ENOMEM): 1894400 KiB Solver output will be limited to a maximum of 15728640 bytes. The first 1048576 bytes and the last 14680064 bytes will be preserved Current StackSize limit: 10240 KiB [startup+0 s] /proc/loadavg: 1.03 1.04 1.00 3/77 3188 /proc/meminfo: memFree=1682744/2055920 swapFree=4170240/4192956 [pid=3188] ppid=3186 vsize=11892 CPUtime=0 /proc/3188/stat : 3188 (bsolo3.0.16) R 3186 3188 1448 0 -1 4194304 367 0 0 0 0 0 0 0 18 0 1 0 153091512 12177408 335 18446744073709551615 134512640 135841103 4294956672 18446744073709551615 13026939 0 0 4096 16384 0 0 0 17 1 0 0 /proc/3188/statm: 2973 335 281 324 0 2003 0 Solver just ended. Dumping a history of the last processes samples Child status: 0 Real time (s): 0.0462491 CPU time (s): 0.043992 CPU user time (s): 0.040993 CPU system time (s): 0.002999 CPU usage (%): 95.1198 Max. virtual memory (cumulated for all children) (KiB): 0 getrusage(RUSAGE_CHILDREN,...) data: user time used= 0.040993 system time used= 0.002999 maximum resident set size= 0 integral shared memory size= 0 integral unshared data size= 0 integral unshared stack size= 0 page reclaims= 740 page faults= 0 swaps= 0 block input operations= 0 block output operations= 0 messages sent= 0 messages received= 0 signals received= 0 voluntary context switches= 12 involuntary context switches= 1 runsolver used 0.002999 second user time and 0.006998 second system time The end
Begin job on node26 on Fri Apr 20 06:49:07 UTC 2007 IDJOB= 365722 IDBENCH= 2542 IDSOLVER= 163 FILE ID= node26/365722-1177051747 PBS_JOBID= 4640126 Free space on /tmp= 66432 MiB SOLVER NAME= bsolo 3.0.16 BENCH NAME= HOME/pub/bench/PB06//final/normalized-PB06/OPT-BIGINT/mps-v2-20-10/MIPLIB/miplib3/normalized-mps-v2-20-10-qnet1.opb COMMAND LINE= bsolo3.0.16 -t1800 -m1800 /tmp/evaluation/365722-1177051747/instance-365722-1177051747.opb RUNSOLVER COMMAND LINE= runsolver --timestamp -w ROOT/results/node26/watcher-365722-1177051747 -o ROOT/results/node26/solver-365722-1177051747 -C 1800 -W 3600 -M 1800 --output-limit 1,15 bsolo3.0.16 -t1800 -m1800 /tmp/evaluation/365722-1177051747/instance-365722-1177051747.opb META MD5SUM SOLVER= b11bf0769a124f73ad50b0fdfcd50482 MD5SUM BENCH= 9cd99d01f800e747c5049853d96a0d20 RANDOM SEED= 407269715 TIME LIMIT= 1800 seconds MEMORY LIMIT= 1800 MiB Linux node26.alineos.net 2.6.9-22.EL.rootsmp #1 SMP Mon Oct 3 08:59:52 CEST 2005 x86_64 x86_64 x86_64 GNU/Linux /proc/cpuinfo: processor : 0 vendor_id : GenuineIntel cpu family : 15 model : 4 model name : Intel(R) Xeon(TM) CPU 3.00GHz stepping : 3 cpu MHz : 3000.213 cache size : 2048 KB fpu : yes fpu_exception : yes cpuid level : 5 wp : yes flags : fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush dts acpi mmx fxsr sse sse2 ss ht tm syscall nx lm pni monitor ds_cpl cid cx16 xtpr bogomips : 5914.62 clflush size : 64 cache_alignment : 128 address sizes : 36 bits physical, 48 bits virtual power management: processor : 1 vendor_id : GenuineIntel cpu family : 15 model : 4 model name : Intel(R) Xeon(TM) CPU 3.00GHz stepping : 3 cpu MHz : 3000.213 cache size : 2048 KB fpu : yes fpu_exception : yes cpuid level : 5 wp : yes flags : fpu vme de pse tsc msr pae mce cx8 apic sep mtrr pge mca cmov pat pse36 clflush dts acpi mmx fxsr sse sse2 ss ht tm syscall nx lm pni monitor ds_cpl cid cx16 xtpr bogomips : 5586.94 clflush size : 64 cache_alignment : 128 address sizes : 36 bits physical, 48 bits virtual power management: /proc/meminfo: MemTotal: 2055920 kB MemFree: 1683152 kB Buffers: 37724 kB Cached: 246652 kB SwapCached: 3128 kB Active: 79716 kB Inactive: 228204 kB HighTotal: 0 kB HighFree: 0 kB LowTotal: 2055920 kB LowFree: 1683152 kB SwapTotal: 4192956 kB SwapFree: 4170240 kB Dirty: 4760 kB Writeback: 0 kB Mapped: 31112 kB Slab: 50384 kB Committed_AS: 1088120 kB PageTables: 1716 kB VmallocTotal: 536870911 kB VmallocUsed: 264952 kB VmallocChunk: 536605679 kB HugePages_Total: 0 HugePages_Free: 0 Hugepagesize: 2048 kB Free space on /tmp at the end= 66432 MiB End job on node26 on Fri Apr 20 06:49:07 UTC 2007